基于不同DNA序列对四数獐牙菜系统位置分析

以扁蕾属植物为外类群,基于trnL-trnF序列、rpl16序列以及 ITS序列,采用最大简约法对四数獐牙菜的系统位置进行了分析.结果显示:尽管在ITS系统发育树、trnL-trnF系统发育树和rpl16系统发育树中所用的种和数量有所不同,所得到的3种系统发育树的拓扑结构也不一致,但四数獐牙菜的系统位置在3种系统发育树中的结果基本一致.在trnL-trnF系统发育树中,四数獐牙菜与花锚属的H.elliptica、H.brevicornis和H.weddelliana形成了一个单系群;而在ITS和rpl16系统发育树中,四数獐牙菜与歧散獐牙菜先聚在一起,再与花锚属的植物聚为一支支持率较高的单系支.研究表明,四数獐牙菜与Anagalidium属的歧散獐牙菜的亲缘关系最近,其次是与花锚属的植物,而与獐牙菜属植物的亲缘关系较远.本实验系统发育的结果支持将四数獐牙菜从獐牙菜属中分出而归入Anagalidium属的观点.     

窄叶鲜卑花(Sibiraea angustata)nrDNA ITS和cpDNA trnL-F序列分子进化特点的分析

应用PCR产物直接测序法分析了窄叶鲜卑花居群间nrDNA(核糖体DNA)ITS序列和cpDNA(叶绿体DNA)trnL-F的碱基差异,并与cpDNAtrnS-G序列和rpl20-rps12序列进行比较,从而初步研究两套植物基因组的变异速率。采用改良的CTAB法从硅胶干燥的窄叶鲜卑花叶片中提取总DNA,并对nrDNA ITS和cpDNAtrnL-F区域进行扩增、纯化、测序。nrDNA ITS序列共有601 bp,有变异位点3处,变异位点百分率为0.05%,(G+C)含量为41.4%。cpDNAtrnL-F序列共有927 bp,有变异位点1处,变异位点百分率0.01%,(G+C)含量为32.6%,两种序列的核苷酸多样性非常低。比较发现,窄叶鲜卑花nrDNA ITS区域较cpDNAtrnS-G序列和rpl20-rps12序列保守,变异速率较慢,比cpDNAtrnL-F序列变异速率稍快。通过对ITS序列单倍型(haplotype)进行分析发现,窄叶鲜卑花现有分布范围经历了居群近期范围扩张,与叶绿体基因组(trnS-G和rpl20-rps12序列)得出的结论一致。因此,窄叶鲜卑花nrDNA ITS序列适合该种的谱系地理学研究。     

鸡爪槭种下分类群的DNA条形码筛选

槭属鸡爪槭(Acer palmatum Thunb.)是北温带广泛分布的一类园艺观赏树种,由于频繁的种内杂交渐渗导致其种下分类群的形态性状特征趋同,致使传统的形态学分类难以准确鉴定,新兴的DNA条形码技术为快速、准确的鉴定鸡爪槭种下分类群提供了新的思路。本研究采用5个叶绿体DNA片段(rpl16、psbA-trnH、trnL-trnF、rbcL、matK)和核基因组ITS片段,运用PWG-distance和Tree-Building两种方法对鸡爪槭的8个分类群共32个个体进行DNA条形码分析。结果显示,单个叶绿体基因组片段(分辨率为0%~25%)或核rDNA ITS片段(12.5%)的分辨率较低,不同组合的叶绿体DNA片段(0%~62.5%)、叶绿体片段与核rDNA ITS片段(12.5%~50%)的分辨率则相对较高。其中,rpl16+psbA-trnH+trnL-trnF片段组合的分辨率最高(62.5%),较为符合DNA条形码快速、准确鉴定的要求,因此建议将其作为鸡爪槭种下分类群鉴定的DNA条形码。     

鼠尾草叶绿体基因组序列分析

鼠尾草（Salvia japonica）是唇形科（Labiatae）鼠尾草属（Salvia）的一种多年生草本植物,具有十分重要的药用和经济价值。本文采用第二代测序技术Illumina Hiseq平台对鼠尾草的叶绿体基因组进行测序,同时以鼠尾草近缘物种丹参叶绿体基因组作为参考,组装得到完整叶绿体基因组序列。结果表明,鼠尾草叶绿体基因组序列全长153 995 bp,呈典型的四段式结构,其中LSC区长84 573 bp,SSC区长19 874 bp,两个IR区分别长24 774 bp;鼠尾草叶绿体基因组成功注释13组叶绿体基因,基因的种类、数目及GC含量等与唇形科中其它物种较为类似。这些研究结果丰富了鼠尾草属的叶绿体基因组数据,为今后鼠尾草属植物系统发育关系重建积累了基础性数据。     

基于ITS和trnL-trnF序列的草木樨种群遗传多样性研究

以白花草木樨(Melilotus alba)和黄花草木樨(Melilotus officinalis)18个地理种群植物为材料,用ITS序列和trnL-trnF序列研究了2种草木樨不同种群间的遗传多样性。结果表明:(1)trnL-trnF序列对位后长度为459bp,其中包括6个变异位点,6个简约信息位点,G+C含量为33.1%;ITS序列对位后长度为714bp,其中包括5个变异位点,3个简约信息位点,G+C含量为48.9%。(2)在基于trnL-trnF序列构建的系统发育树中,2种草木樨能够形成单系分支,说明trnL-trnF序列在草木樨中的鉴别能力较强。(3)单倍型多样性以及核苷酸多样性分析表明,黄花草木樨的遗传多样性高于白花草木樨。     

羌活(Notopterygium incisum)nrDNAITS和cpDNA rpl20-rps1序列分子进化特点的分析

应用PCR产物直接测序法分析了羌活居群间nrDNA(核糖体DNA)ITS序列和cpDNA(叶绿体DNA)rpl20-rps12的碱基差异,从而初步研究两套植物基因组的变异速率。采用改良的CTAB法从硅胶干燥的羌活叶片中提取总DNA,并对nrDNA ITS和cpDNA rpl20-rps12区域进行扩增、纯化、测序。nrDNAITS序列共有635 bp,有变异位点17处,变异位点百分率为2.68%,(G+C)含量为57.83%。cpDNA rpl20-rps12序列共有767 bp,有变异位点35处,变异位点百分率4.56%,(G+C)含量为33.06%。比较发现,羌活nrDNAITS区域较cpDNA rpl20-rps12序列保守,变异速率较慢。通过对ITS和rpl20-rps12序列单倍型(haplotype)进行分析发现,两者得出的结论一致,即现有分布范围经历了居群近期范围扩张。因此,羌活nrDNA ITS序列适合该种的谱系地理学研究。     

云南真藓和细叶真藓的核糖体DNA ITS序列分析

从形态特征和地理分布特征比较分析云南真藓和细叶真藓的区别,通过对核糖体DNA的内转录间隔区序列分析研究,对二者进行分子水平鉴定.对包括真藓属及相关属的6种植物的ITS序列进行扩增和测序,使用DNAMAN和MEGA3.0软件对获得的ITS序列数据进行分析.结果表明,云南真藓和细叶真藓的ITS-1和ITS-2区在序列长度,...     

地黄属植物的DNA条形码研究

地黄属(Rehmannia)为玄参科(Scrophulariaceae)药用植物,广泛分布于中国中东部及北部地区。由于地黄属植物经历了快速成种,导致其属内物种间形态性状差异较小,运用传统的形态学分类方法已难以准确地鉴定物种,近年来迅速发展起来的DNA条形码技术为快速、准确地鉴别物种提供了新思路。本研究选用3个叶绿体DNA非编码区片段(trn L-trn F、trn M-trn V和trn S-trn G)及核基因ITS片段,运用PWG-distance和TreeBuilding两种方法对地黄属5个物种75个个体进行了DNA条形码分析。结果表明:单个叶绿体DNA片段或核基因ITS片段对地黄属物种的鉴别率较低(0%~20%),组合的叶绿体DNA片段分辨能力虽然高于单个DNA片段,但并不能将地黄属5个物种完全区分开;trn S-trn G+ITS片段组合的分辨率可达100%,能够将地黄属5个物种准确区分,与所有叶绿体DNA片段和核基因ITS片段组合(trn L-trn F+trn M-trn V+trn S-trn G+ITS)的辨别率相同,因此推荐trn S-trn G+ITS作为地黄属植物的标准条形码。此外,利用DNA条形码鉴别物种时,可采用叶绿体DNA片段和核DNA片段组合的方法来提高物种鉴定的成功率。     

锦葵科植物DNA条形码通用序列的筛选

对锦葵科植物样品的ITS、ITS2、rbcL、matK和psbA-trnH序列进行PCR扩增和测序,比较各序列的扩增效率、测序成功率、种内和种间变异的差异以及barcoding gap图,使用BLAST1和Nearest Distance方法评价不同序列的鉴定能力,进而从这些候选序列中筛选出较适合锦葵科植物鉴别的DNA条形码序列。结果表明,ITS序列在采集的锦葵科植物11个种26个样品中的扩增成功率较高,其种内、种间变异差异和barcoding gap较ITS2、psbA-trnH及rbcL序列具有更明显的优势,且纳入60个属316个种共1228个样品的网上数据后,其鉴定成功率可达89.9%。psbA-trnH序列的扩增和测序成功率最高,其鉴定成功率为63.2%,并能鉴别一些ITS序列无法鉴别的种。实验结果表明,ITS和psbA-trnH是较适合鉴别锦葵科植物的DNA条形码序列组合。     

堇菜属组间的系统发育与亲缘关系：基于trnL-trnF、psbA trnH、rpL16、ITS序列，细胞学以及形态学证据

以鼠鞭草(Hybanthus enneaspermus)、鳞隔堇(Scyphellandra pierrei)、雷诺木(Rinorea bengalensis)作为外类群,对堇菜属(Viola)20个类群的trnL trnF序列,17个类群的psbA trnH、rpL16序列以及1个类群的nrDNA ITS序列进行了测定,并从GenBank下载相应的序列,运用最大简约法以及贝叶斯推论法进行系统分析,构建系统发育树。结果表明：堇菜亚属(subgen.Viola)不是一个单系类群,并明确了堇菜属部分组间类群的亲缘关系。本文还结合形态与细胞学证据对堇菜属进行性状演化的推测。结果表明：1）直立茎较匍匐茎、莲座状茎（叶基生）原始;2）托叶边缘长流苏状与托叶1/2~3/4合生分别是鸟嘴柱头堇菜组（sect.Trigonocarpae）和合生托叶组（sect.Adnatae）演化路线的重要性状标志;3）花柱样式从柱头无喙演化至柱头有喙,并由柱头简单演化至柱头复杂,再趋向于柱头简化。     

Phylogeny and diversification of Chinese Araliaceae based on nuclear and plastid DNA sequence data

Chinese Araliaceae consist of 20 genera and ca. 175 species. To assess the evolutionary relationships of Araliaceae and their biogeographic diversification in China, the phylogeny of Chinese Araliaceae was constructed by sampling 96 accessions representing 20 genera and 50 species of Chinese Araliaceae and 45 closely related taxa using sequences of the nuclear ribosomal internal transcribed spacer (ITS) region and six plastid regions (the ndhF gene, the trnL-trnF region, the rps16intron, the atpB-rbcL intergenic spacer, the rpl16 intron, and the psbA-trnH intergenic spacer). Phylogenetic analyses of the combined plastid and ITS data supported the results of the previously studies that the Chinese members of Araliaceae were scattered within the Asian Palmate group and the Aralia-Panax group withOsmoxylon at the base of core Araliaceae. The generic status of Pentapanax and Tupidanthus is not supported. Our analysis clearly places them in Aralia and AsianSchefflera, respectively. In a broader phylogenetic framework of Araliaceae, based on the fossil-calibrated Bayesian dating, Chinese Araliaceae was inferred to have originated in Asia and underwent a rapid radiation in its evolutionary history. Its diversification is hypothesized to have been driven largely by the orogenies in Asia during the Cenozoic. In China, the distribution pattern of the phylogenetic diversity of Araliaceae corresponds with its taxonomic diversity across the entire region.     

Origins and widespread distribution of co-existing Polyploids in Arnica cordifolia (Asteraceae)

BACKGROUND AND AIMS: Polyploidy is a central force structuring genetic diversity in angiosperms, but its ecological significance and modes of origin are not fully understood. This work investigated the patterns of coexistence and molecular relatedness of polyploids in the perennial herb, Arnica cordifolia. METHODS: The local- and broad-scale distributions of cytotypes were analysed using flow cytometry. Samples were collected from both roadside and understorey habitats to test the hypothesis of niche separation between triploids and tetraploids. The nuclear rDNA internal transcribed spacer (ITS) and plastid rpl16 spacer, trnL intron plus trnL-trnF spacer and trnK 3' intron regions were sequenced. KEY RESULTS: Broad-scale sampling established that both triploids and tetraploids were common throughout the range of the species, pentaploids were rare, and diploids were not found. Local-scale sampling revealed coexistence of both triploids and tetraploids within the majority of sites. Triploids and tetraploids were equally represented in the understorey and roadside habitat. Triploids were more variable than tetraploids, but both cytotypes shared polymorphisms in ITS. CONCLUSIONS: Coexistence of cytotypes appears to be the norm in A. cordifolia, but habitat differentiation (roadside vs. understorey) is not supported as a coexistence mechanism. Molecular analyses supported multiple events creating triploids but revealed a lack of variation in the tetraploids. Additionally, sequence polymorphisms in ITS suggested a hybridization event prior to polyploidization.     

Species-specific molecular signature of Commiphora species of Saudi Arabia inferred from internal transcribed spacer sequences of nuclear ribosomal DNA

The deciduous habit and tendency to produce flowers prior to developing leaves, and a predominantly dioecious system of breeding in the genus Commiphora leads to difficulties in its taxonomic identification at species level. The characteristics of easy amplification by universal primer, shorter length and higher discrimination power at the species level makes the internal transcribed spacer (ITS) sequence of nuclear ribosomal DNA (nrDNA) to a smart gene for generating species-specific phylogenetic inferences in most of the plants groups. The present study deals the ITS sequence of nrDNA based molecular genotyping of seven species of the genus Commiphora of Saudi Arabia. The molecular phylogenetic analysis of ITS sequences of nrDNA of Commiphora species distributed in Saudi Arabia reveals the the occurrence of C. madagascariens in Saudi Arabia.     

内生真菌EPICOCCUM NIGRUM的形态与分子鉴定(英文)

在调查松属植物内生真菌过程中,从植物组织中分离到45株Epicoccum nigrum。根据它们在PDA培养基生长时的总体形态特征,划分为三组形态类型。从每组类型中随机选取三个代表菌株作进一步的分子鉴定。rDNA的ITS和5.8S基因序列分析结果表明,这9个菌株为E. nigrum。我们的研究结果也证明了前人提出的在Epicoccum菌种鉴定中,孢子大小和菌落颜色不能作为可靠的种级分类特征。     

Arbitrary Primer Based RAPD — A Useful Genetic Marker for Species Identification in Morels

Internal transcribed spacer (ITS) regions of 5.8S ribosomal DNA gene of 46 monospore cultures representing different species of family Morchellaceae were sequenced. Eight putative species namely Morchella esculenta, M. crassipes, M. angusticeps, M. conice, Mitrophora semilibera, Morchella spongiola, M. vulgaris and Verpa conica were designated to the sequenced cultures analyzed based on similarity with the best aligned sequence of the BLAST search. We recorded interspecific polymorphism in ITS regions of the 5.8S r-DNA gene amongst putative species of morels. However no intraspecific ITS polymorphism could be visualized amongst monospores from single and or different ascocarps collected from various geographical regions. PCR RAPDamplified profiles of different monospores were identical at intraspecific levels and could not be distinguished by eight arbitrary primers tested. RAPD profiles exhibited significant interspecific polymorphism distinguishing all the eight putative species from each other by primer OPP-6 (5’- GTG GGT TGA C- 3’) and a custom primer (5’-CGC ACC GCA G-3’). RAPDprofiles generated using aforesaid arbitrary primers can serve as useful genetic markers for species identification and to improve morel systematics. Present study is the first report on exploitation of random primers in species differentiation in morels.     

Phylogenetic relationship among related genera of Plumbaginaceae and preliminary genetic diversity of Limonium sinense in China

Phylogenetic relationship of Limonium and other genera of Plumbaginaceae in China were studied using the cp rbcL, matK and the intergene spacer of trnL-trnF. The analysis showed that Plumbaginaceae was strongly supported monophyletic group sister to Polygonacea, and two tribes were comfirmed by phylogenetic analysis in Plumbaginaceae. Preliminary genetic diversity of Limonium sinense in China was also analyzed in this study by nrDNA (ITS) and cp DNA (two regions of intergenic spacers, trnL-trnF and psbA-trnH). The results showed that the population genetic diversity was low perhaps for human activities and breeding system of this species. These results have been used to understand the evolutionary and demographic history of L. sinense, which is a requisite to establish efficient conservation measures for this species.     

Testing four proposed barcoding markers for the identification of species within Ligustrum L.(Oleaceae)

DNA barcoding is a biological technique that uses short and standardized genes or DNA regions to facilitate species identification. DNA barcoding has been used successfully in several animal and plant groups. Ligustrum (Oleaceae) species occur widely throughout the world and are used as medicinal plants in China. Therefore, the accurate identification of species in this genus is necessary. Four potential DNA barcodes, namely the nuclear ribosomal internal transcribed spacer (ITS) and three chloroplast (cp) DNA regions (rbcL, marK, and trnH-psbA),were used to differentiate species within Ligustrum. BLAST, character-based method, tree-based methods and TAXONDNA analysis were used to investigate the molecular identification capabilities of the chosen markers for discriminating 92 samples representing 20 species of this genus. The results showed that the ITS sequences have the most variable information, followed by trnH-psbA, matK, and rbcL. All sequences of the four regions correctly identified the species at the genus level using BLAST alignment. At the species level, the discriminating power of rbcL, matK, trnH-psbA and ITS based on neighbor-joining (NJ) trees was 36.8%, 38.9%, 77.8%, and 80%,respectively. Using character-based and maximum parsimony (MP) tree methods together, the discriminating ability of trnH-psbA increased to 88.9%. All species could be differentiated using ITS when combining the NJ tree method with character-based or MP tree methods. Overall, the results indicate that DNA barcoding is an effective molecular identification method for Ligustrum species. We propose the nuclear ribosomal ITS as a plant barcode for plant identification and trnH-psbA as a candidate barcode sequence.